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Application of Construction Waste Recycled Material Processing in Road Engineering
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作者 Jianfeng Chen 《Journal of Architectural Research and Development》 2022年第6期1-6,共6页
In order to promote the recycling of construction waste in China and reduce the cost of road engineering materials,this paper expounds on the technical indexes,road performance,durability,and the impact on the compres... In order to promote the recycling of construction waste in China and reduce the cost of road engineering materials,this paper expounds on the technical indexes,road performance,durability,and the impact on the compressive strength of road engineering of construction waste recycled materials based on the analysis of the processing technology of construction waste recycled materials to provide reference for future research. 展开更多
关键词 Construction waste Road engineering material regeneration
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Recycling of waste carbon residue from spent lithium-ion batteries via constant-pressure acid leaching 被引量:3
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作者 Xiang-dong ZHU Jin XIAO +3 位作者 Qiu-yun MAO Zhen-hua ZHANG Lei TANG Qi-fan ZHONG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第5期1691-1704,共14页
Waste carbon residue(WCR)was efficiently detoxicated and regenerated to high-purity graphite(PGC)used in lithium-ion batteries through the constant-pressure acid leaching technique.The leaching conditions were optimiz... Waste carbon residue(WCR)was efficiently detoxicated and regenerated to high-purity graphite(PGC)used in lithium-ion batteries through the constant-pressure acid leaching technique.The leaching conditions were optimized by the combination of orthogonal and single-factor experiments.Results show that PGC with 99.5%purity is regenerated at temperature of 60℃,initial acid concentration of 12%,leaching time of 180 min,and liquid-to-solid ratio of 25:1,satisfying the requirements of commercial graphite.Meanwhile,the sodium hydroxide precipitation process was designed to recover valuable components from leachate efficiently.Ni,Co,Mn,and Al recoveries reach 96.92%,87.5%,97.83%,and 92.17%,respectively,at pH=11.Moreover,the co-product NaF can be recovered with purity over 99%via evaporative crystallization.The loss rate of fluorine is less than 0.5%,thereby eliminating the pollution risk of fluorine to the environment.The proposed process shows considerable environmental and economic benefits. 展开更多
关键词 constant-pressure acid leaching waste carbon residue anode material regeneration sodium hydroxide precipitation NAF
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